Student Studyguide Unit 1 Basic Troposcatter Theory AN/TRC-170 Training Student Studyguide Unit 1 Basic Tropo Theory TITLE: Basic Troposcatter Theory LEARNING OBJECTIVE: Action: You will be able to describe the basic key concepts of the tropospheric scattering communications theory. Conditions: You will be given an informal lecture on basic tropospheric scattering communications theory. Standard: You will be able to correctly describe the basic key concepts of tropospheric scattering communications theory. SAFETY CONSIDERATIONS: Be aware of the possibility of electrical shock when working with electronic equipment RISK ASSESSMENT: Low RESOURCE NEEDS/REFERENCES: Communication System AN/TRC-170(V)3, PowerPoint Presentation “Unit 1”, Laptop and Overhead Projector, TM 11-5820-934-13-2, CSI Manual 142F009900-1 and AN/TRC-170(V)3 Training Student Studyguide METHODS OF INSTRUCTION: Informal Lecture TIME: 0.5 Academic Hours Unit 1 Basic Troposcatter Theory
Basic Troposcatter Theory Student Studyguide Unit 1 Basic Tropo Theory Overview Earth’s Atmosphere Troposcatter communications Factors affecting Take-off angle Diversity INTRODUCTION: Elapsed Time 1. In this unit, we will cover basic tropospheric scattering communications theory. Overview Earth’s Atmosphere Troposcatter communications Factors affecting Take-off angle Diversity AN/TRC 170 Training
Earth’s Atmosphere Troposphere: lowermost portion of the atmosphere Student Studyguide Unit 1 Basic Tropo Theory Troposphere: lowermost portion of the atmosphere Weather occurs in this layer of atmosphere Weather and atmospheric changes affect the troposcatter signal BODY: 1. Overview: In order to become familiar with troposcatter propagation, students should first be familiar with a few key terms and definitions, then learn how the atmosphere allows this type of communication to occur. Students will see how weather factors affect this type of communication system and the steps that must be taken to diminish the adverse factors. 2. Layers of the Earth’s atmosphere Troposphere: The lowermost portion of the Earth’s atmosphere. It begins at the surface of the Earth and extends upwards. All weather phenomena occur in this portion of the Earth’s atmosphere. Approximately 75% of what we call the atmosphere is in this region. We’re most interested in the water vapor and temperature changes that occur in this region. AN/TRC 170 Training
Troposcatter Communications Student Studyguide Unit 1 Basic Tropo Theory Uses microwave radio to communicate through the atmosphere “Over-the-Horizon” Signal can be scattered Signal can be diffracted Equipment can also be used in “Line-of-Sight” 3. Troposcatter Communications The AN/TRC-170(V)3 troposcatter method uses a microwave radio to communicate through the lowest portion of the earth’s atmosphere, the troposphere. We can communicate up to 100 miles or sometimes more using this method, depending on circumstances. A microwave radio operates in the microwave frequency band. The microwave frequency band begins at 1,000 MHz (1 GHz). The troposphere scatters the microwave signal. The signal can also be diffracted when it bends around an obstacle. The AN/TRC-170(V)3 may also communicate using Line-of-Sight (LOS) microwave communication. Using the LOS method and equipment, the range is about 35 miles. It is important to understand that the signal loss caused by scattering and diffraction are large compared to the loss incurred in Direct Line of Sight microwave communication. AN/TRC 170 Training
Troposcatter Communications Student Studyguide Unit 1 Basic Tropo Theory Transmission of the signal is affected by: Scattering: loss of signal into space Fading: Short or long term variations in signal level Here we will discuss several factors that affect troposcatter links. Later, we will learn how to minimize the effects of these factors. When planning a troposcatter link, system link planners have to take all these factors into account. Transmission of the signal is affected by: Scattering: Loss of signal into space Fading: Variations in signal level AN/TRC 170 Training
Factors Affecting Troposcatter Links Student Studyguide Unit 1 Basic Tropo Theory Scattering Main part of signal is lost Random phenomenon Only the refracted portion is useable The main part of a troposcatter signal is lost and unusable. It continues out of the atmosphere and into space. As the Radio Frequency energy travels through the atmosphere, it is subjected to scattering, which causes parts of the signal to come back down to Earth. AN/TRC 170 Training
Factors Affecting Troposcatter Links Student Studyguide Unit 1 Basic Tropo Theory Long Term Fading – Variations in Signal Level Caused by weather, seasonal changes Fading is a term used to describe variations in signal level. This can be short or long term. Long term fading is due to seasonal variations in weather, for example, humidity reductions in the winter months or rainy seasons. Compensate for the effects of long term signal fading, by increasing the power output. NOTE: If a tropo link doesn’t compensate for these factors, then the link will fade in and out too much to be useable. AN/TRC 170 Training
Factors Affecting Troposcatter Links Student Studyguide Unit 1 Basic Tropo Theory Short-Term Fading: Sudden, unpredictable drops in signal for 0.03 – 3 sec Ex: Frequency Selective Fading Short Term Fading: describes a phenomenon where parts of the signal fade suddenly and unpredictably. In this case it happens so quickly and unpredictably that increased power output will not compensate for it. Frequency Selective Fading Different frequencies fade at different points in time. This may cause parts of the wanted signal to fade, while other parts of the signal remain strong. The signal can effectively disappear for a moment or two during a short term fade. The equipment compensates for this. We will talk more about ways to compensate for short term fading and other phenomenon in later units. AN/TRC 170 Training
Take-off Angle Student Studyguide Unit 1 Basic Tropo Theory Take-off Angle is the angle the antenna has to be set at in order to transmit over the horizon. Normal take-off angles for troposcatter links range from 0-5 degrees. 4. Takeoff Angle: Take-off angle: Describes the angle at which the antenna has to be set to in order to transmit over the horizon. Normal take off angles for troposcatter links range from 0 to 5 degrees. The higher the takeoff angle, the lower the signal will be at the distant end. The antenna is usually set at a slightly positive angle with reference to the local horizontal. In some cases, the angle can be slightly negative, or downward pointing. AN/TRC 170 Training
Diversity Diversity helps to overcome fading Student Studyguide Unit 1 Basic Tropo Theory Diversity helps to overcome fading Combines two or more signals Signals have independent paths The signals may arrive at different times or arrive stronger/weaker 5. Diversity The best way to mitigate the affects of short term fading is through the use of diversity techniques. Diversity is a technique which improves the total receive signal over any single path by combining two or more independent paths. Independent paths are ones in which the characteristics of the receive signal from each path are different at any given point in time. Since diversity paths will not have the same characteristics, they will probably not fade at the same time. The advantage of combining them results in having a combined signal that does not fade. AN/TRC 170 Training
Angle Diversity Student Studyguide Unit 1 Basic Tropo Theory Diversity reception in which beyond-the-horizon troposcatter signals are received at slightly different angles. The equipment combines the paths in order to prevent signal loss or degradation. Angle Diversity A diversity reception in which beyond-the-horizon troposcatter signals are received at slightly different angles. Uses one antenna at each end of a tropo link for both transmit and receive . The antennas have an offset feed that have different look angles. The main feeds are used for transmit and receive, the offset feed is used for receive only. The equipment combines the paths in order to prevent signal loss or degradation. . AN/TRC 170 Training
Space Diversity Uses 2 antennas at each end of a tropo link Student Studyguide Unit 1 Basic Tropo Theory Uses 2 antennas at each end of a tropo link Improves the receive signal over any single path Requires 100 wavelength separation One antenna is used for transmit and receive, and the second for receive only. b. Space Diversity Space Diversity uses more than one antenna at each end of a tropo link. (Normally 2 antennas are used). One is used for transmit and receive, and the second is only used for receive. Requires 100 wavelength separation between antennas Requires only one transmitter and one transmit frequency at each end. The AN/TRC-170 (V)3 microwave radio uses dual antennas AN/TRC 170 Training
Frequency Diversity Uses one antenna at each end Student Studyguide Unit 1 Basic Tropo Theory Uses one antenna at each end Uses two frequencies at each end. Transmit & Receive Transmitting Tx1 & Tx2 Receiving Rx1 & Rx2 Signal c. Frequency Diversity Frequency Diversity is another kind of diversity where the signal is transmitted using different frequencies on the same antenna. Requires two transmit frequencies at each end of the link. Reliability and performance are the same as Space Diversity. Wastes the radio spectrum and increases the possibilities of interference. AN/TRC 170 Training
Questions? Student Studyguide Unit 1 Basic Tropo Theory SUMMARY: During this lesson students you received an introduction to basic key concepts of tropospheric scattering communications theory. Ask the instruction questions to clarify any misunderstandings. THE END AN/TRC 170 Training